Report No.: EME-041157 Page 1 of 17

LABORATORY MEASUREMENTS

Pursuant To 47 CFR Part 15 Subpart B (July, 2004)

And FCC Procedure ANSI C63.4 (2003)

Applicant: ICP DAS Co., Ltd. No. 111, Kuangfu N. Rd., Hukou Shiang, Hsinchu, Taiwan Model No.: I-7005, I-7015, I-7019R, I-7045, I-7045D, I-7051, I-7051D, I-7055, I-7055D, I-7530, I-87017R, I-87018R, I-87040, I-87041, M-7017, M-7017-232, M-7017R, M-7018, M-7018R, M-7019R, FR-2053, FR-2057, SG-3016, I-2541 Issue Date: Dec. 14, 2004 Test Site Location: No. 11, Lane 275, Ko-Nan 1st St., Chia-Tung Li, Shiang-Shan District, Hsinchu City, Taiwan We attest to the accuracy of this report： This test report consists of 17 pages in total. It may be duplicated completely For legal use with the allowance of the applicant. It shall not be reproduced except In full, without the written approval of Intertek Laboratory. The test result in this Report only applies to the tested sample.

0597 ILAC MRA

Project Engineer Reviewed By

Brandon Huang Rico Deng

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Table of Contents

1. General Information ..................................................................................................... 3 1.1 General Description of EUT................................................................................... 3 1.2 Additional information about the EUT................................................................... 3 1.3 Peripherals equipment ............................................................................................ 4

2. Test Summary ............................................................................................................... 5

3. Test Specifications ........................................................................................................ 6 3.1 Standards ................................................................................................................ 6 3.2 Definition of Device Classification ........................................................................ 6 3.3 EUT Operation Condition....................................................................................... 6

4. Conducted Emission Measurements (FCC 15.107) ..................................................... 7 4.1 Operating environment ........................................................................................... 7 4.2 Test Setup and procedure........................................................................................ 7 4.3 Test Equipment ....................................................................................................... 8 4.4 Conducted Emission Limits: .................................................................................. 8 4.5 Uncertainty of Conducted Emission....................................................................... 8 4.6 Conducted Emission Data ...................................................................................... 9

5. Radiated Emission Measurements (FCC 15.109)....................................................... 11 5.1 Operating environment ......................................................................................... 11 5.2 Test Setup and procedure...................................................................................... 11 5.3 Test Equipment ..................................................................................................... 12 5.4 Radiated Emission Limits:.................................................................................... 12 5.5 Uncertainty of Radiated Emission........................................................................ 12 5.6 Radiated Emission Test Data ................................................................................ 13

Appendix A1: External photo of EUT............................................................................ 15 Appendix B1: Conducted Emission Test Set-up ............................................................ 16 Appendix B2: Radiated Emission Test Set-up................................................................ 17

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1. General Information 1.1 General Description of EUT Product: ICPDAS CPU with Converter Model No.: I-7005 Applicant: ICP DAS Co., Ltd. Rated Power: 120Vac, 60Hz Power Cord: 3C×18AWG ×1.5meter with 2 cores Data Cable: Fiber cable 10meter × 1 Sample receiving date: Nov. 25, 2004 Testing date: Nov. 26, 2004 ~ Dec.8, 2004 1.2 Additional information about the EUT The EUT is an ICPDAS CPU with Converter, and was defined as information technology equipment. According to the hardware aspect, we verified the models listed as below are series model to I-7005 (EUT), the difference please refer to the following table:

Model Number Firmware I-7005 8- channel Thermistor Input and 6-channel Alarm Output Module

I-7015 6-channel RTD Input Module

I-7019R 8-channel Universal Analog Input Module

I-7045 16-channel Isolated Digital Output Module

I-7045D I-7045 with LED Display

I-7051 16-channel Isolated Digital Input Module

I-7051D 16-channel Isolated Digital Input Module

I-7055 8-channel Isolated Digital Input and 8-channel Isolated Digital Output Module

I-7055D 8-channel Isolated Digital Input and 8-channel Isolated Digital Output Module

I-7530 Intelligent RS-232 to CAN converter

I-87017R 8-channel Analog Input Module

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Model Number Firmware I-87018R 8-channel Thermocouple Input Module

I-87040 32-channel Isolated Digital Input Module

I-87041 32-channel Isolated Digital Output Module

M-7017 8-channel Analog Input Module

M-7017-232 8-channel Analog Input Module

M-7017R 8-channel Analog Input Module with High Over Voltage Protection

M-7018 8-channel Thermocouple Input Module

M-7018R 8-channel Thermocouple Input Module with High Over Voltage Protection

M-7019R 8-channel Universal Input Module with High Over Voltage Protection

FR-2053 16-channel Isolated Digital Input Module

FR-2057 16-channel Isolated Digital Output Module

SG-3016 Isolated Strain Gauge Input Module

I-2541 RS-232/422/485 to Fiber Optic Converter

For more detail features, please refer to user's Manual. 1.3 Peripherals equipment

Peripherals Manufacturer Product No. Serial No.

Notebook PC Dell PP01L CN-03P83-48643-33O-3930

Fiber Optic Converter ICP DAS I-2541 N/A

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2. Test Summary

Emission Standard Test Type Result Remarks

Conducted Emission Test PASS Pass by –18.45 dB at 0.244 MHz at Line CISPR 22: 2003

Class B Radiated Emission Test PASS Pass by –5.61 dB at 100.8 MHz

with antenna polarization vertical Remark: The EUT has been tested/evaluated and pass the CISPR 22 without modification.

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3. Test Specifications

3.1 Standards According to 47 CFR Part 15.109 (g), both conducted and radiated emission tests were performed according to the procedures in CISPR 22: 2003.

The EUT setup configuration please refers to the photo of test configuration in item.

3.2 Definition of Device Classification Unintentional radiator: A device that intentionally generates radio frequency energy for use within the device, or that sends radio frequency signals by conduction to associated equipment via connecting wiring, but which is not intended to emit RF energy by radiation or induction. Class A Digital Device: A digital device which is marketed for use in commercial or business environment; exclusive of a device which is market for use by the general public, or which is intended to be used in the home. Class B Digital Device: A digital device, which is, marketed for use in a residential environment, notwithstanding use in a commercial, business of industrial environment. Example of such devices is designed to market for the general public. Note: A manufacturer may also qualify a device intended to be marketed in a commercial, business or industrial environment as a Class B digital device, and in fact is encouraged to do so, provided the device complies with the technical specifications for a Class B Digital Device. In the event that a particular type of device has been found to repeatedly cause harmful interference to radio communications, the Commission may classify such a digital device as a Class B Digital Device, Regardless of its intended use. 3.3 EUT Operation Condition

The EUT was supplied with 120Vac, 60Hz and was running in normal operating mode.

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4. Conducted Emission Measurements (FCC 15.107) 4.1 Operating environment

Temperature: 23 ℃ (10-40℃) Atmospheric Pressure: 1023 hPa (860-1060hPa)

Relative Humidity: 55 % (10-90%) Test Voltage: 120Vac, 60Hz

4.2 Test Setup and procedure The EUT along with its peripherals were placed on a 1.0m(W)×1.5m(L) and 0.8m in height wooden table and the EUT was adjusted to maintain a ,0.4 meter space from a vertical reference plane. The EUT was connected to power mains through a line impedance stabilization network (LISN), which provided 50 ohm coupling impedance for measuring instrument and the chassis ground was bounded to the horizontal ground plane of shielded room. The excess power cable between the EUT and the LISN was bundled. All connecting cables of EUT and peripherals were moved to find the maximum emission

AC PowerEUT AMN

EMI

Receiver

Peripherals

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4.3 Test Equipment

Equipment Brand Model No. Intertek ID No. Next Cal. DateEMI Receiver Rohde & Schwarz ESCS 30 EC318 06/18/2005

LISN Rohde & Schwarz EHS3-Z5 EC320 01/08/2005 LISN Rohde & Schwarz ESH3-Z5 EC344 01/14/2005

Shield Room N/A N/A N/A N/A Note: The above equipments are within the valid calibration period. 4.4 Conducted Emission Limits:

Freq. Maximum RF Line Voltage

(MHz) Class A (dBμV) Class B (dBμV)

Q.P. Avg. Q.P. Avg.

0.15~0.50 79 66 66~56 56~46

0.50~5.00 73 60 56 46

5.00~30.0 73 60 60 50

4.5 Uncertainty of Conducted Emission

Expanded uncertainty (k=2) of conducted emission measurement is ±2.6 dB.

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4.6 Conducted Emission Data

Phase: Line Model No.: I-7005 Test Condition: Normal operating mode

Remark: 1. Corr. Factor (dB)= LISN Factor (dB) + Cable Loss (dB) 2. Margin (dB) = Level (dBuV) – Limit (dBuV)

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Phase: Neutral Model No.: I-7005 Test Condition: Normal operating mode

Remark: 1. Corr. Factor (dB)= LISN Factor (dB) + Cable Loss (dB) 2. Margin (dB) = Level (dBuV) – Limit (dBuV)

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5. Radiated Emission Measurements (FCC 15.109)

5.1 Operating environment

Temperature: 28 ℃ (10-40℃) Atmospheric Pressure: 1023 hPa (860-1060hPa)

Relative Humidity: 40 % (10-90%) Test Voltage: 120Vac, 60Hz

5.2 Test Setup and procedure

The Diagram below shows the test setup, which is utilized to make these measurements.

The equipment under test was placed on the top of rotation table 0.8 meter above ground plane. The table was 360 degrees to determine the position of the highest radiation. EUT is set 10 meters from the EMI receiving antenna, which is mounted on a variable height mast. The antenna height is varied between one meter and four meters above ground to find the maximum value of the field strength. Both horizontal polarization and vertical polarization of the antenna are set to make the measurement. The bandwidth was setting on the EMI meter 120 kHz. The levels are quasi peak value readings. The frequency spectrum from 30MHz to 1000MHz was investigated.

RF Test Receiver

0.8 m

EUT

Ground Plane

Antenna Tower

Receiver Antenna

1.0~4.0 m

10 m

□Peripherals

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5.3 Test Equipment

Equipment Brand Model No. Intertek ID No. Next Cat. Date

EMI Receiver Rohde & Schwarz ESCS 30 EC318 6/18/2005

EMI Spectrum Rohde & Schwarz ESMI EC317 7/14/2005

Turn Table Electro-Metrics EM4710 EP306 N/A

Bilog Antenna Schaffner CBL611213 EC366 02/06/2005

Antenna Tower Electro-Metrics EM-4720 EP307 N/A

Note: The above equipments are within the valid calibration period. 5.4 Radiated Emission Limits:

According to FCC 15.109(g), to perform digital device radiated emission using CISPR 22 limits and method, the field strength of radiated emission from unintentional radiators at a distance of 10 meters shall not exceed the following values:

Frequency (MHz) Distance (m) Class A Class B

30~230 10 40 30

230~1000 10 47 37 Note: 1. The tighter limit shall apply at the edge between two frequency bands. 2. Distance refers to the distance in meters between the measuring instrument Antenna and the closet point of EUT.

5.5 Uncertainty of Radiated Emission

Expanded uncertainty (k=2) of radiated emission measurement is ±3.58 dB.

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5.6 Radiated Emission Test Data Polarity: Vertical Model No.: I-7005 Test Condition: Normal operating mode

Remark: 1. Level (dBμV/m)= Factor (dB/m)+ Read Level (dBμV) 2. Factor = Antenna Factor (dB/m) + Cable Loss (dB) 3. Over Limit (Margin) (dB) = Level (dBμV/m) – Limit Line(dBμV/m)

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Polarity: Horizontal Model No.: I-7005 Test Condition: Normal operating mode

Remark: 1. Level (dBμV/m)= Factor (dB/m)+ Read Level (dBμV) 2. Factor = Antenna Factor (dB/m) + Cable Loss (dB) 3. Over Limit (Margin) (dB) = Level (dBμV/m) – Limit Line(dBμV/m)

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Appendix A1: External photo of EUT

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Appendix B1: Conducted Emission Test Set-up

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Appendix B2: Radiated Emission Test Set-up